This is an application for system control companies jointly developed Castellanos Innovation Spaces, SLU (EC-INNOVA) and Generations Fotovoltaicas de la Mancha, SL (GFM).
For the development of the present innovation it will work on the integration of the following components:
1. System energy capture: using panels installing solar pumping own, without compromising performance.
2. storage system: in the last year has been a decline in prices accumulation systems, particularly those using based on lithium ion, on the other hand technologies have appeared on the market many stationary storage systems based on 12 volt lithium capabilities 5 to 30 Ah suitable for the monitoring system to develop. Therefore it is possible to have a system of accumulation that has a useful life of 10 years at a reduced cost.
3.- Data acquisition system: Main monitored values are the voltage and current of the photovoltaic field, besides the pressure and / or flow probe drywell. The acquisition system must have experience using several years to ensure its reliability and capabilities.
4. Communication system: it is based on a redundant 3G / GPRS system, by which can command and reset the system remotely; thereby the displacement for connection recovery procedures was avoided.
5. Control system: The control is done through 4 relays managing potential free, which can be configured for different actions, some might be: turn on / off the pump, activate alarms, reset communications, turn on or off a focus , etc...
6. Support systems and ventilation support system that facilitates and ensures good equipment installation will be designed. On the other hand, we must give the team a ventilation system and / or cooling to ensure the reliability and life of at least 10 years of the solution.
Therefore, this project aims to integrate 6 systems described, so as to facilitate the implementation of control software, which based on the technology of the internet of things, provide an experience very attractive and simple user, providing all the control and monitoring tools needed to comfortably achieve the desired objectives.
For the development of the present innovation it will work on the integration of the following components:
1. System energy capture: using panels installing solar pumping own, without compromising performance.
2. storage system: in the last year has been a decline in prices accumulation systems, particularly those using based on lithium ion, on the other hand technologies have appeared on the market many stationary storage systems based on 12 volt lithium capabilities 5 to 30 Ah suitable for the monitoring system to develop. Therefore it is possible to have a system of accumulation that has a useful life of 10 years at a reduced cost.
3.- Data acquisition system: Main monitored values are the voltage and current of the photovoltaic field, besides the pressure and / or flow probe drywell. The acquisition system must have experience using several years to ensure its reliability and capabilities.
4. Communication system: it is based on a redundant 3G / GPRS system, by which can command and reset the system remotely; thereby the displacement for connection recovery procedures was avoided.
5. Control system: The control is done through 4 relays managing potential free, which can be configured for different actions, some might be: turn on / off the pump, activate alarms, reset communications, turn on or off a focus , etc...
6. Support systems and ventilation support system that facilitates and ensures good equipment installation will be designed. On the other hand, we must give the team a ventilation system and / or cooling to ensure the reliability and life of at least 10 years of the solution.
Therefore, this project aims to integrate 6 systems described, so as to facilitate the implementation of control software, which based on the technology of the internet of things, provide an experience very attractive and simple user, providing all the control and monitoring tools needed to comfortably achieve the desired objectives.
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